An object of the present invention is to provide a sterilization gas purifying closed system device that is capable of performing a sterilization process with an inexpensive configuration. In order to achieve the object, there is provided a sterilization gas purifying closed system device that performs a sterilization process on a sealed use area using a sterilization gas, the device including: a gas pipe connected to the use area via a first opening that is open or closed by opening or closing a first valve; and a catalyst area connected to the use area via a second opening that is open or closed by opening or closing a second valve, in which the sterilization gas is a hydrogen peroxide gas, in which platinum and palladium are provided as a catalyst in the catalyst area, in which when the sterilization process is performed, if the second valve is closed and the first valve is open, the hydrogen peroxide gas is introduced into the use area from the gas pipe via the first opening, and after the introduction, if the first valve is closed and the use area is brought into a sealed state, the sterilization process is performed using the hydrogen peroxide gas, and in which after a predetermined period of time, if the first valve and the second valve are open and a non-toxic gas is introduced from the gas pipe via the first opening, the hydrogen peroxide gas in the use area is introduced, in a push manner, into the catalyst area, and the hydrogen peroxide gas is purified.

The present invention relates to a device that eliminates germs and bacteria from your hands. The device is especially designed to achieve total asepsis of the hands of people working and/or should have access to certain sectors of industries manufacturing and/or fractionation of food, medicinal products, testing laboratories industry biological, chemical industries in general, operating rooms, etc. where it is required to maintain strict hygiene and asepsis conditions.

A scalable, portable and modular chlorine dioxide fumigant decontamination system having an activating area and a neutralizing area which may be housed separately or as a single operationally connected unit, and which may be configured as a closed loop system connected to a decontamination chamber for decontamination of articles, or as an open loop system for decontamination of interiors and large confined spaces, and employing a specialized activating cup that is permeable to air yet substantially impermeable to water and chlorine dioxide reaction by-products such that directing air through the activation cup releases nearly pure chlorine dioxide fumigant. Methods and articles relating to the system are also described.

Technologies (e.g., devices, systems and methods) for sanitizing hot beverage makers are described. In some embodiments, the technologies include a sanitization gas system that is configured to be install into a cover, onto a wall or cover and between a the top rim of the reservoir and the cover of the reservoir. The sanitization gas system may provide a sanitizing gas to the reservoir for sanitizing the reservoir, sidewalls, bottom tray and cover.

A beeswax and/or beehive or bee keeping equipment surface is treated with a composition containing at least one solvent, at least one surfactant and at least one oxidizing agent (e.g., peroxide), optionally also containing other components such as an oxidizing agent activator, a viscosifying agent, an enzyme and/or a pH control agent, to reduce the amount of pesticide residues on the beeswax surface and/or disinfect against any bacterial, viruses, and fungi infestation.

A method and an apparatus are provided for cleaning, disinfecting, and/or sterilizing a device. The method comprises contacting an object with an obstructing substance such that the object is infiltrated with at least a portion of the obstructing substance. An absorptive and/or adsorptive capacity of the object is reduced by the obstructing substance. The object is contacted with a treatment agent after the capacity of the object is reduced. Infiltration of the object with the treatment agent is limited by the reduction of the capacity of the object.

A device and method for decontaminating the interior of a biosafety cabinet using a drug considered to be safe for humans is provided. A device for decontaminating the interior of a biosafety cabinet includes an ultrasonic atomizer for atomizing a peracetic acid disinfectant using ultrasound and releasing droplets; a diffusion fan; a circulation fan; a temperature-humidity sensor; and a controller.

Disclosed is a process and a device for sterilizing gas filtration unit, characterized in that the sterilization process includes at least: an application step consisting in circulating, through the gas filtration unit, a gas mixture including hot air and a determined amount of hydrogen peroxide vapor, in which the determined amount of hydrogen peroxide vapor is obtained by sequentially injecting, with a given time interval (t) between two successive injections, a given dose of hydrogen peroxide in the liquid state into the hot air; anda sterilization step consisting, during the time interval (t), in circulating hot air through the filtration unit in order to eliminate, by evaporation, all or some of the hydrogen peroxide deposited on the filtration unit during the application step.

A bacteria treatment mechanism and a bacteria treatment method capable of reliably sterilizing an exterior of an article are provided. A bacteria treatment mechanism includes: a bacteria treatment unit that has a space for performing bacteria treatment; a radiation irradiation unit that irradiates the bacteria treatment unit with radiation for performing the bacteria treatment; an air supply duct that supplies air to the bacteria treatment unit; a decontamination treatment fluid supply unit that supplies a decontamination treatment fluid to the air supply duct during initial decontamination of the air supply duct; and an exhaust duct that exhausts molecules in the bacteria treatment unit.

Technologies for providing a gas inlet and gas outlet to a compartment are described. In embodiments, the technologies include a dual channel connector unit that includes an inlet passageway and an outlet passageway. In embodiments at least a portion of the outlet passageway is disposed radially around the inlet passageway. The connector unit is configured to install into a portion (e.g., wall, bottom, top, or lid) of a compartment. Systems and methods including such connector units are also described.